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Abstract: Multithreshold CMOS (MTCMOS) circuits reduce standby leakage power with low delay overhead. Most MTCMOS designs cut off the power to large blocks of logic using large sleep transistors. Locally distributing sleep devices has remained less popular even though it has several advantages described in this paper. However, locally placed sleep devices are only feasible if sneak leakage currents are prevented. This paper makes two contributions to leakage reduction. First, we examine the causes of... (Update)
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BibTeX entry: (Update)
@misc{ calhoun-leakage,
author = "Benton H. Calhoun and Frank A. Honore and Anantha P. Chandrakasan",
title = "A Leakage Reduction Methodology for Distributed MTCMOS",
url = "citeseer.ist.psu.edu/calhoun04leakage.html" }
Citations (may not include all citations):64 Design challenges of technology scaling (context) - Borkar - 1999
31 1-V power supply high-speed digital circuit technology with .. (context) - Mutoh - 1995
8 MTCMOS hierarchical sizing based on mutual exclusive dischar.. - Kao - 1998
7 Design methodology for fine-grained leakage control in MTCMO.. (context) - Calhoun, Honore et al. - 2003
6 A 1-V high-speed MTCMOS circuit scheme for power-down applic.. (context) - Shigematsu - 1995
5 MTCMOS sequential circuits (context) - Kao, Chandrakasan - 2001
4 A CMOS scheme for 0.5 V supply voltage with pico-ampere stan.. (context) - Kawaguchi - 1998
3 Zigzag super cut-off CMOS (ZSCCMOS) block activation with se.. (context) - Min - 2003
2 Low threshold CMOS circuits with low standby current - Stan - 1998
2 Boosted Gate MOS (BGMOS): device/circuit cooperation scheme .. (context) - Inukai - 2000
2 Automated selective multi-threshold design for ultra-low sta.. (context) - Usami - 2002
1 Intrinsic leakage in low power deep submicron CMOS ICs (context) - Keshavarzi - 1997
1 Ultra-low standby-currents for deep sub-micron VLSI CMOS cir.. (context) - van der Meer - 2000
1 Architecting ASIC libraries and flows in nanometer era (context) - Bittlestone - 2003
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